CN1894441A - Method and apparatus for scripping electric deposition metal plate from permanent cathode - Google Patents

Method and apparatus for scripping electric deposition metal plate from permanent cathode Download PDF

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Publication number
CN1894441A
CN1894441A CNA2004800371735A CN200480037173A CN1894441A CN 1894441 A CN1894441 A CN 1894441A CN A2004800371735 A CNA2004800371735 A CN A2004800371735A CN 200480037173 A CN200480037173 A CN 200480037173A CN 1894441 A CN1894441 A CN 1894441A
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China
Prior art keywords
assembly
metal sheet
peeling
plate
guide roller
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CNA2004800371735A
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Chinese (zh)
Inventor
V·鲁宾逊
P·唐纳森
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Glencore Canada Corp
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Falconbrige Ltd
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Publication of CN1894441A publication Critical patent/CN1894441A/en
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    • CCHEMISTRY; METALLURGY
    • C25ELECTROLYTIC OR ELECTROPHORETIC PROCESSES; APPARATUS THEREFOR
    • C25FPROCESSES FOR THE ELECTROLYTIC REMOVAL OF MATERIALS FROM OBJECTS; APPARATUS THEREFOR
    • C25F7/00Constructional parts, or assemblies thereof, of cells for electrolytic removal of material from objects; Servicing or operating
    • CCHEMISTRY; METALLURGY
    • C25ELECTROLYTIC OR ELECTROPHORETIC PROCESSES; APPARATUS THEREFOR
    • C25DPROCESSES FOR THE ELECTROLYTIC OR ELECTROPHORETIC PRODUCTION OF COATINGS; ELECTROFORMING; APPARATUS THEREFOR
    • C25D7/00Electroplating characterised by the article coated
    • C25D7/08Mirrors; Reflectors
    • CCHEMISTRY; METALLURGY
    • C25ELECTROLYTIC OR ELECTROPHORETIC PROCESSES; APPARATUS THEREFOR
    • C25CPROCESSES FOR THE ELECTROLYTIC PRODUCTION, RECOVERY OR REFINING OF METALS; APPARATUS THEREFOR
    • C25C7/00Constructional parts, or assemblies thereof, of cells; Servicing or operating of cells
    • C25C7/06Operating or servicing
    • C25C7/08Separating of deposited metals from the cathode
    • CCHEMISTRY; METALLURGY
    • C25ELECTROLYTIC OR ELECTROPHORETIC PROCESSES; APPARATUS THEREFOR
    • C25FPROCESSES FOR THE ELECTROLYTIC REMOVAL OF MATERIALS FROM OBJECTS; APPARATUS THEREFOR
    • C25F5/00Electrolytic stripping of metallic layers or coatings

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  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Electrochemistry (AREA)
  • Materials Engineering (AREA)
  • Metallurgy (AREA)
  • Organic Chemistry (AREA)
  • Electrolytic Production Of Metals (AREA)
  • Details Of Cutting Devices (AREA)
  • Folding Of Thin Sheet-Like Materials, Special Discharging Devices, And Others (AREA)

Abstract

A method and apparatus for stripping electro-deposited metal sheets from a cathode blank. The blank (14) has opposite faces (16) and (18), upstream and downstream ends. The apparatus comprises a stripping assembly (30) for stripping the electro-deposited metal sheets from the cathode blank, a discharge assembly (32) and a metal sheet out-feed assembly (34). The discharge assembly is positioned downstream of the stripping assembly and includes opposite guide rollers (155) adapted to engage the metal sheet exiting the stripping assembly. The metal sheet out-feed assembly is positioned downstream the discharge assembly for receiving the metal sheet. When the metal sheet has been stripped from the cathode blank, the guide rollers controllably feed the metal sheet to the out-feed assembly. The method comprises stripping the metal sheets from the cathode and controllably discharging the stripped sheets to an out-feed assembly.

Description

Be used for from the method and apparatus of permanent cathode scripping electric deposition metal plate
Technical field
The present invention relates to the electrodeposit metals plate on the permanent cathode that is used for electrolytic deposition and refining technology.The invention particularly relates to a kind of being used for from the method and apparatus of permanent cathode scripping electric deposition metal plate.
Background technology
As commonly known in the art, electrolytic deposition is meant the technology that metal is extracted by electrolytic cell from its soluble salt.This technology is used to reclaim zinc, cobalt, chromium and manganese, and in the copper that is applied to recently occur with the form of silicate ore.For any Special Metal, the salt in the solution is subject to electrolysis and electrolytic deposition to the negative electrode start-up plate.Particularly, be used for separating deposition technique and comprising, immersing CuSO from the lixiviate/electrodeposition gold of dissolving electrolytic solution preparation pure metal copper 4-H 2SO 4-H 2Apply electromotive force between inertia alloy lead anode in the O electrolytic solution and stainless steel or the cathode.Deposited copper metal on negative electrode, and on anode, discharge oxygen.By straight a plurality of negative electrodes of making from following stainless steel are provided in other factors, can make with extra care the purity maximization of copper, described stainless steel is vertically inserted in the electrolyzer and with equidistant placement.
Similar, the refining technology is meant uses the impure metal as anode, and by the technology that electrolytic solution is purified metals, pure metal is from this anode dissolving and be deposited on the negative electrode subsequently.Particularly, when refining copper, copper is dissolved into CuSO from the anode of impure copper 4-H 2SO 4-H 2O electrolytic solution.The fine copper galvanic deposit that does not have anodic impurity is to negative electrode.The purity of the copper of being purified is very high by this way, has impurity and the oxygen that controls to about 0.025% less than 20ppm usually.
When using another kind of metal, for example stainless steel when making start-up plate, must deposit to purifying metals on the start-up plate by subsequent removal.In order to peel off the start-up plate that is covered by purifying metals, prior art discloses a kind of system, described plate is being used to clean in this system, peels off, moving between many stations of polishing etc.Move the weight that problem is a metal refining of described plate, it may surpass 300kg, therefore need firmly be used for moving described plate with the structure with physical strength.
Prior art systems comprises the device that uses the straight line conveyer, wherein by the dish-type conveyer cathode support is transmitted by a plurality of stations of peeling off at bottom margin.Other prior art systems, disclosed in 410 for example at United States Patent (USP) 5,149, comprise rotating disk based on the top drive of rotation, by described rotating disk negative plate is transmitted by a plurality of stations of peeling off.By hanger rod these negative plates are hung from the support that is installed in the rotating disk bottom.A shortcoming of these systems is, when with metal refining when start-up plate separates, its their complete length that falls at least is so that shift out by conveyer.In addition, the quality of these structures is bigger, and inertia is also bigger, need the superpower driver element, thereby cost is higher.
Therefore still need a kind ofly to peel off improving one's methods and installing of galvanic deposit plate from permanent cathode.
Goal of the invention
Therefore, the purpose of this invention is to provide a kind of improved method and apparatus to peel off permanent cathode.
Summary of the invention
Specifically be, according to the present invention, provide a kind of and be used for from the device of cathode plate scripping electric deposition metal plate, this kind plate has relative face and upstream and downstream end, at least one metal sheet is positioned at least one kind plate face and has the upstream and downstream edge, and described device comprises:
Peel off assembly, be used for stripped metal sheets from the cathode plate;
The unloading assembly is positioned at described downstream of peeling off assembly, and described unloading assembly comprises relative guide roller, and this guide roller is suitable for and withdraws from the described metal sheet of peeling off assembly and engage; With
The metal sheet output precision is positioned at the downstream of described unloading assembly, is used to receive metal sheet;
Wherein, when with metal sheet when cathode plate peels, described guide roller controllably offers metal sheet described output precision.
According to another aspect of the present invention, a kind of unloading assembly is provided, be used for a kind of being used for from the device of cathode plate scripping electric deposition metal plate, this device comprises that the metal sheet that is suitable for being positioned at this unloading assembly upstream peels off assembly and be suitable for being positioned at the metal sheet output precision that this peels off the assembly downstream, and described unloading assembly comprises:
Relative guide roller is suitable for engaging with leaving the metal sheet of peeling off assembly, and when with metal sheet when cathode plate peels, described guide roller controllably is transported to metal sheet described output precision.
According to another aspect of the invention, a kind of single station device that is used for from the cathode plate scripping electric deposition metal plate is provided, this kind plate has relative face, upstream and downstream end, at least one metal sheet is positioned at least one kind plate face and has the upstream and downstream edge, and described device comprises:
Send into assembly;
Peel off assembly, it is positioned at the described downstream of sending into assembly, is used for stripped metal sheets from the cathode plate, and comprises:
Knock assembly, be used to unclamp the upstream edge of metal sheet; And
Separating component is used for the unstripped part of metal sheet is separated from cathode plate;
The unloading assembly is positioned at described downstream of peeling off assembly, and described unloading assembly comprises relative guide roller, and this guide roller is suitable for and withdraws from the described metal sheet of peeling off assembly and engage; And the metal sheet output precision, be positioned at the downstream of described unloading assembly, be used to receive metal sheet; Wherein, sending into, peel off, knock, separate, unloading and exporting metal sheet in single continuous station realization.
According to a further aspect of the invention, providing a kind of is used for from the method for cathode plate scripping electric deposition metal plate, this kind plate has relative face, upstream and downstream end, and at least one plate is positioned at least one kind plate face and has the upstream and downstream edge, and described method comprises:
Stripped metal sheets from the cathode plate; And
Controllably the metal sheet that will peel off is transported to output precision.
An advantage of the invention is after metal sheet being peeled from cathode plate, can controllably metal sheet be unloaded from peeling off assembly.
By example with reference to the accompanying drawings, according to following non restrictive description to the embodiment of the invention, what will be more readily apparent from understands other purpose of the present invention, advantage and feature.
Description of drawings
In the accompanying drawings, components identical is used identical Reference numeral, wherein:
Fig. 1,2,3,4,4A and 4B are the front views that is used for from the device of permanent cathode scripping electric deposition metal plate, show according to the embodiment of the invention, the order from negative electrode stripped metal sheets and from this device the unloading this metal sheet;
Fig. 5 is the side cross-sectional views of being done along the line 5-5 among Fig. 1, shows separation assembly and negative electrode and metal sheet according to the device of the embodiment of the invention;
Fig. 6 is the front view with Fig. 5 separation assembly of tool parts of the present invention, in this case, compares with the obliquity about negative electrode shown in Figure 1, and this separation assembly is positioned at an opposing inclined position;
Fig. 7 is and the side-view of the similar separation assembly of Fig. 5 that wherein tool parts is in the working position;
Fig. 8 is the front view of the separation assembly of Fig. 5, and wherein tool parts is in the working position;
Fig. 9 is the front view according to the gate member of the present invention of the embodiment of the invention;
Figure 10 is the top plan of the gate member of Fig. 9;
Figure 11 is the skeleton view that unloads assembly according to the present invention of the embodiment of the invention; And
Figure 12 is the skeleton diagram according to apparatus of the present invention that comprise controller of the embodiment of the invention.
Specific embodiment
At this, embodiments of the present invention will be described by referring to the drawings, so that illustrate the present invention, and do not limit its scope.
Fig. 1 and 4 shows the device 10 that is used for from cathode plate 14 scripping electric deposition metal plates 12.
Specifically with reference to figure 1,6,8 and 9, cathode plate 14 correspondingly has relative face 16 and 18, and upstream and downstream terminal 20 and 22.
Specifically with reference to figure 1,5,6,7,8 and 9, metal sheet 12 is positioned on one or two relative cathode plate face 16 and 18, and defines upstream edge 24 and 26 and downstream edge separately 28 separately as shown in the figure.In this example, edge 28 is adjacent and forms single common edge.Equally, metal sheet 12 comprises two metal sheets or metal plate sections 12a and 12b (referring to Fig. 6,8 and 9), and they surround cathode plate and join at common edge 28 places, to form the structure of a V-arrangement or U-shaped.
Turn back to Fig. 1 to 4, device 10 comprises the metal output precision 34 of peeling off assembly 30, being positioned at the unloading assembly 32 in the downstream of peeling off assembly 30 and being positioned at the downstream of unloading assembly 32.
Device 10 comprises that also negative electrode sends into assembly 35, is positioned at the upstream (referring to Fig. 3,5 and 7) of peeling off assembly 30.
Device 10 also comprises support frame assembly 36, and it is a kind of structure weld assembly with rectangular hollow part, is used for support said modules as mentioned below.Support frame assembly 36 comprises two worktable parts 38 and 40, and it has top component 42 and 44 separately. Top component 42 and 44 stands upright on separately many on support foot part 46,48 and 50,52. Support foot part 46 and 48 is stablized by interconnecting member 54; Support foot part 50 and 52 is stablized by interconnecting member 56.Support frame assembly 36 also comprises upper and lower central unit 58 and 60, is installed in respectively between support foot part 48 and 50.
Peel off assembly 30 and comprise a pair of relative and peeling member that separate, 62 and 64, they define cathode plate reception zone 66 (in addition referring to Fig. 3) betwixt.
Referring to figs. 1 to 4, each peeling member 62 and 64 comprises the carriage that moves back and forth 63 and 65 separately.
The carriage 63 and 65 that moves back and forth has rear end 68 and 70 separately, and it is installed on separately the actuator 72 and 74, be used for shown in arrow A and A ' towards with moving back and forth away from cathode plate reception zone 66.Actuator 72 and 74 is installed on top braces parts 42 and 44 by supporting structure 76 and 78 respectively.The carriage 63 and 65 that moves comprises sliding surface separately, 80 and 82. Surface 80 and 82 is slidably mounted on top braces parts 42 and 44 by the guide member (not shown) respectively.
Peeling member comprises respectively from carriage 63 and 65 extension components 88 and 90 that extend downwards.
Peeling member 62 and 64 comprises removable finger element 84 and 86 separately.
Each finger element 84 and 86 comprises sheet component 92 and 94 (referring to Fig. 4) separately and rotatably is installed to carriage 63 and 65 by pivot 89 and 91 respectively. Finger piece 84 and 86 is respectively installed on finger piece actuating assembly 96 and 98. Actuating assembly 96 and 98 comprises actuator 93 and 95 (referring to Fig. 4) separately.Like this, actuator 93 and 95 can actuator fingers 84 and 86, make they according to the direction shown in arrow B and the B ' towards with do back and forth to rotate around pivot 89 and 91 away from reception zone 66.
Peeling member 62 and 64 comprises top clamping part 128 and 130 (referring to Fig. 1) separately, and it is installed on carriage 63 and 64; And bottom clamping part 132 and 134 (referring to Fig. 1) separately, it is installed on extension component 88 and 90. Top clamping part 128 and 130 is the anchor clamps that cover polyurethane(s). Bottom jig 132 and 134 is metal fixtures that spring is housed.The top 24 and 28 that top clamp 128 and 130 is configured to clamp metal sheet 12, and bottom jig 132 and 134 is configured to clamp the bottom margin 28 of metal sheet 12, this will be described below.
With reference to figure 3, peel off assembly 30 and comprise separation assembly 100, be positioned at the peeling member 62 that separates and 64 downstream.
Specifically with reference to figure 5,6,7 and 8, separation assembly 100 comprises removable tool parts 102.Tool parts 102 comprises sword sheet 104 and handle portion 106.Handle portion 106 is installed on the cutter actuating assembly 108.Particularly, cutter actuating assembly 108 comprises actuator 110, and it has the top 111 that rotatably is installed to extension 113 by pivot 112, and extend from handle portion 106 described extension.Handle portion 106 rotatably is installed on the extension 115 at pivot 114 places, and extend from actuating assembly 108 this extension.In actuation process, actuator 110 moves up according to the direction shown in the arrow C of Fig. 7, so that according to arrow C ' shown in vertically skim over mobile tool parts 102.Tool parts 102 also is installed to side and moves on the actuating assembly 116.Actuating assembly 116 comprises horizontal actuator 118, and it is installed on the cutter handle 106 with according to the mobile tool parts 102 in the ground of the direction left and right horizontal shown in the arrow D by junctor 120.Junctor 120 comprises adjustable double set nut 122, in order to regulate the angle or the obliquity of tool parts 102.
Forward Fig. 2 to, peel off assembly 30 and also comprise and knock assembly 124.
With reference to figure 2, knock assembly 124 comprise relative and separate knock parts 126 and 128, they are respectively installed on carriage 62 and 64.Knock parts the 126, the 128th, pneumatic hammer is configured to decontrol top edge 24 and 28, and this will be described below.
With reference to Fig. 1 and 2, peel off assembly 30 and also comprise superimposed assembly 136, be positioned at the downstream of peeling member 62 and 64.
Forward Fig. 2 to, assembly 136 comprises a pair of superimposed parts 138 and 140 that separate, and is respectively installed on extension component 88 and 90.Superimposed parts 138 and 140 comprise idle rollers 142 and 144, and it is installed on separately the hydraulic actuator 146 and 148.Like this, idle rollers 142 and 144 can move back and forth according to the direction shown in arrow E and the E '.
Refer again to Fig. 1-4, the guide member 157 that unloading assembly 32 comprises gate member 152, is positioned at the drum assembly 155 in gate member 152 downstreams and is positioned at the drum assembly downstream.
Now forward Fig. 9 and 10 to, gate member 152 comprises a pair of relative gate part 154 and 156.Specifically with reference to Figure 10, gate part 154 and 156 has end 158 and 160 separately, its by support 159 and 161 rotatably be installed to separately the axle 162 and 164 on.Axle 162 and 164 is installed to separately bracing strut on 163 and 165.Bracing strut 163 and 165 is installed to the last middle body 58 (only showing a center upper portion part here) of frame supported assembly 36.
Gate part 154 and 156 extends downwards when closing with box lunch at their separately another from their ends 158 separately and 160 relative terminal 166 and 168 joins, and this will be described below.Actuator 170 and 172 acts on gate 154 and 156 by linkage system 171 and 173, so that along axle 162 and 164 rotary gate parts 154 and 156 up or down, thereby, closed back and forth and open the sluices parts 154 and 156 according to the direction shown in arrow F and the F '.
And gate member 152 comprises two passive side directed assemblies 175, with the metal sheet of being stripped from 12 of guiding whereabouts.Each side directed assembly comprises interconnecting member 177 and inflector 179.Should be noted that when gate part 156 and 158 is closed they form the structure that is generally V-arrangement or U-shaped, with the bottom of imitation near the metal sheet 12 of common edge 28.This V-arrangement or U-shaped structure are used to support common edge 28.
With reference to figure 3 and 11, drum assembly 155 comprises a pair of relative and hold- down roll 174 and 176 that separate, and it is installed to down on the central unit 60 by base component 178.
Cylinder 174 and 176 is longitudinal rod parts, and its length along them has the flange 179 that separates and vertically terminally is installed on the support 180 by axle journal at their; Support 180 is installed on the base component 178. Cylinder 174 and 176 is coupled on revolving actuator 182 and 184, and it is driven so that with respect to they longitudinal axis swing rollers 174 and 176 separately by cylinder actuating assembly (not shown).
In unrestriced embodiment, each compresses or head roll 174 and 176 is driven by low-speed high-torque hydraulic motor direct-coupled with it.The splitter (not shown) keeps the speed of rotation of cylinder similar.
Drum assembly 155 comprises transverse actuator 183, and it is driven by the actuating assembly 186 (referring to Fig. 3) that is installed to down central unit 60 and support foot part 50.Actuator 183 is installed on base component 178 and the cylinder 176, is used for doing back and forth laterally to move according to the direction shown in the arrow G.Particularly, actuator 183 is installed on the plate 185 by junctor 187; Plate 185 is installed to axle journal again and installs on the support 180 of cylinder 176.Aforementioned brackets 180 is installed on the transverse guidance parts 189 and 191 relative in the base component 178 slidably with plate 187.Like this, plate 187, support 180 and cylinder 176 can laterally move along guide member 189 and 191 its effect by actuator 183 according to the direction shown in the arrow G.
Even should be noted that the aforementioned dispenser valve can keep cylinder 174 similar with 176 speed when the horizontal withdrawal of cylinder 176 dos is mobile.
Unloading assembly 155 comprises transmitter 199, is used to detect the position of the metal sheet 12 that is unloaded, and this will be described below.In one embodiment, transmitter is the laser type optical sensor, and it detects the shared or lower edge 28 of metal sheet 12 during near output precision 34 at metal sheet 12.
Guide member 157 is positioned at the downstream of drum assembly 155, and is the vertical parts of cardinal principle of microbend longitudinally.Guide member is supported by the guide support structure 188 that is installed on the support foot part 48.In a unrestriced example, guide member 157 comprises having wear-resistant excellent 192 guide surface 190 and side inflector 194, when it is sent to level attitude on the output precision 34 at the metal sheet 12 of will be stripped from from the vertical position, can be with the metal sheet 12 of being stripped from from one side directed to opposite side, this will be described below.
With reference to figure 1,2,3 and 4, output precision 34 is conveyer assemblies, comprises relative conveying roller 196 and 198, is equipped with on it to transmit pad 200.Conveying roller 196 and 198 is electronic so that move this pad and by 202 guiding of idle running guide wheel according to the direction of arrow H.
Forward Fig. 5 and 7 to, cathode plate is sent into assembly 35 and is comprised negative electrode conveying assembly or suspension bracket 204, and it engages with the upstream extremity 20 of cathode plate 14.This sends into assembly 35 can be carrousel and dolly, and it moves horizontally negative electrode on linear supporting track.Can use the various suitable assemblies of sending in the present invention.
With reference to Figure 12, device 10 can be connected to the controller 300 of data handler for example or computer, perhaps can separate connection send into assembly 35, comprise peeling member 62 and 64 and the peeling off assembly 30, knock assembly 124, comprise unloading assembly 32 and the transmitter 199 and the negative electrode output precision 34 of gate member 152 and drum assembly 155 of removable finger element 84 and 86 to negative electrode, so that receive data from it, analyze these data and transmit signal, thus the control aforementioned components.Can understand easily as those skilled in the art, controller 300 can by or by direct wiring or be connected to by the long distance wireless coupling device on the various actuating assemblies of aforementioned components.
At work, negative electrode is sent into assembly 35 cathode plate 14 is brought in the negative electrode reception zone 66, and powering at this cathode plate deposits metal sheet 12.Therefore the cathode plate 14 that has metal sheet 12 is suspended on the reception zone 66 from suspension bracket 204.
Peeling member 62 and 64 extends to cathode plate reception zone 64 by their actuators 72 and 74 separately, and slides along top braces parts 42 and 44 respectively.Like this, top clamping part 128 and 130 is clamped the upstream edge 24 and 26 of metal sheet 12, and bottom clamping part 132 and 134 is clamped metal sheet 12 in each cathode plane 16 and 18 near downstream common edge 28 places.
Act on this edge so that edge 24 and 26 is unclamped or discharges from cathode plate 14 at this pneumatic hammer 126 and 128 near upstream edge 24 and 26.
Finger element 84 and 86 66 is rotated towards the reception zone then, make sword sheet 92 and 94 respectively upstream metal- sheet edges 24 and 26 with cathode plate face 16 and 18 between cut.When sword sheet 92 and 94 had inserted between metal plate sections 12a and 12b and cathode plane 16 and 18 fully, peeling member 62 and 64 outwards moved from cathode plate reception zone 66.Because finger piece 84 and 86 clamps the upstream portion (near upstream edge 24 and 26) of metal plate sections 12a and 12b, so these parts are peeled away cathode plane 16 and 18 according to arrow I shown in Figure 1 and II.When having regained peeling member 62 and 64 fully by this way, finger element 84 and 86 upwards is rotated away from metal sheet 12.
In many cases, be positioned at cathode plate 16 and 18 both sides and will remain adhered on the cathode plate 14 by 12 downstream part near the metal sheet the common edge 28.In these cases, tool parts 102 given cathode plane 16 and 18 and given stripping metal plate portion 12a and 12b between move horizontally.The angle and the obliquity that should be noted that tool parts 102 will be regulated by its adjustable double set nut 122.Therefore, depend on which face in the face 16 and 18 of the cathode plate 14 that will use, tool parts 102 tilts with the obliquity similar to the obliquity of metal sheet 12a of being stripped from or 12b.In the example of Fig. 6 and 8, tool parts 102 is between the metal plate sections 12a of being stripped from of cathode plate face 18 and inclination.Shown in Fig. 7 and 8, tool parts 102 skims between metal plate sections 12b and cathode plate surface 18, to downcut metal plate sections 12b from cathode plate face 18.If needed, this can repeat between cathode plate face 16 and the metal sheet 12a of being stripped from.
When with metal sheet 12 fully when cathode plate 14 strips down, gravity can cause it according to falling as arrow III in Fig. 2 and 8 and the direction shown in the IV, and edge 28 can knock on the closed gate part 154 and 156 as support.
When metal sheet 12 is peeled off following time from cathode plate, unfolded metal plate sections 12a and 12b engage with idle rollers 142 and 144.When these slippers 12a and 12b along cylinder 142 and 144 to lower slip up to common edge with by closed gate part 154 and 156 formed supports in abutting connection with the time, superimposed parts 138 and 140 act on metal plate sections 12a and 12b so that they are folded into together.
Gate part 154 and 156 is opened at leisure, makes the metal sheet 12 of being stripped from by its slip.Superimposed position is provided when providing an opening to slide by it with convenient metal plate sections 12a and 12b the gate part of opening 154 and 156.
When the metal sheet 12 of being stripped from falls by the gate member of opening 152, the common edge of the metal sheet 12 of being stripped from will engage with the space that forms between hold- down roll 174 and 176.
Should be noted that little space between cylinder 174 and 176 makes metal sheet 12 not slip over or slide by it.
Hold- down roll 174 and 176 is electronic, thereby they controllably descend metal sheet 12 according to the direction shown in the arrow V in Fig. 3 and 4 by the gate member of opening 152, and controllably metal sheet 12 are transported to output precision 34 by guide member 157 as shown in Figure 4.
The cylinder 174 and the 176 pairs of metal sheets 12 apply enough pressure so that bonding part 12a and 12b simultaneously, thus when it falls pressing V-arrangement metal sheet.
Like this, the speed that cylinder 174 and 176 control metal sheets fall, and guide member 157 its position of control in the process that metal sheet falls towards output precision 34.
When the common edge 28 of metal sheet 12 engages with transmission pad 202, edge 28 and signal actuating assembly 186 that transmitter 199 detects near pad 202, so that according to arrow G as Fig. 4 A ' shown in direction gradually cylinder 176 is regained away from cylinder 174, between it, produce bigger space.When the direction with arrow H pulled away common edge, the feasible metal sheet 12 of being evened up of described increased space tilted according to the direction of arrow VI.
When by filling up 202 when continuing to pull away common edge 28, the top 24 and 26 of joint or not with hold- down roll 174 and 176, and glides along guide member 157 according to the direction of arrow VII and to fill up 202 and engage with transmitting up to them.Like this, the metal sheet that flattens is lain on the transmission pad, so that move away device 10 according to arrow VIII in the direction of arrow H.
Thereby the horizontal translation of cylinder 176 makes hard and thick metal sheet 12 rotate and is transferred in the height at it under the control of cylinder 174 and 176.
It should be noted that, hold- down roll 174 and 176 and the distance that transmits between the pad 202 enough big, engage and its intermediate roll 176 when being in fully forward position with convenient hold-down roll 174,176 and the edge 24 that engages and 26, make common edge 28 and fill up 202 and engage.
Described now the operation of embodiments of the invention and these embodiment, will describe other embodiment and feature with further example explanation the present invention and do not limit its scope at this.
In one embodiment, by following at galvanic deposit plate 12 top edge 24 and 26 and negative electrode 14 between form the gap: on first direction transverse bend negative electrode 12 middle body, so that between the top edge 24 of galvanic deposit plate portion 12a and cathode plate face 16, produce the gap, and in this gap, insert finger piece 92; With opposite direction transverse bend negative electrode 14,, and in this gap, insert finger piece 94 so that between the top 26 of galvanic deposit plate portion 12b and cathode plate face 16, produce the gap; And regain finger pieces 92 and 94 from negative electrode 14, with from cathodic disbonding galvanic deposit plate portion 12a and 12b.The present invention can also comprise crooked assembly known in the art.
The type that should be noted that the electrodeposit metals plate 12 that can be used among the present invention comprises copper and other metal general in this area.
Cathode plate 14 of the present invention is rectangular usually, shall also be noted that those skilled in the art can expect the various variations for the cathode plate structure in the scope of the invention.
In example of the present invention, showing metal sheet is V-arrangement and the U-shaped structure with two part 12a and 12b, and these two parts have common edge 28.Can expect that in practice negative electrode 14 being configured to metal sheet 12 is two different plates, each is positioned on the surface 16 and 18 of each cathode plate and does not have common edge 28.It will also be appreciated that, be configured to only exist a metal sheet 12 to be positioned on given face 16 or 18 on negative electrode 14.
As known in the art, can expect the support frame assembly 36 shown in the present invention's description is configured to various forms.In one embodiment, when tectonic framework assembly 36, should consider in the successive flow process, to send to its cathode plate 14 of depositing metal sheet 12 of powering on, send towards the control of output precision 34 from cathode plate 14 stripped metal sheets 12 and by unloading assembly 32 of the present invention.In the example shown here, support frame assembly 36 is configured for stripped metal sheets 12, makes its vertical drop by index drum 174 and 176 its whereabouts of control then.Obviously, can consider in content of the present invention that said modules is placed in the mode of continuous online level, rather than metal sheet 12 is fallen.Here in the assembly of horizontal location, when with metal sheet 12 when cathode plate 14 is peeled off, index drum 174 and 176 and downstream edge 28 adjacency of metal sheet 12 is so that can flow to it output precision 36 immediately.
Can expect the various assemblies 30 of peeling off in scope of the present invention.Obviously, when cathode plate 14 only comprise one its when powering on the face 16 that deposits metal sheet 12 or 18, it is also conceivable that peeling off assembly comprises a peeling member 62 or 64 or finger pieces 84 and 86.Peeling off assembly does not need to comprise any superimposed assembly 136 described here or knocks assembly 124 or separation assembly 100.Aforementioned components is an optional characteristic, and they help metal sheet 12 is peeled off from its cathode plate 14.But those skilled in the art can expect various superimposed assemblies and various mode of knocking and knocking the metal sheet 12 that is positioned on the cathode plate 14, so that in stripping process it is unclamped.The separation assembly of various other types comprises the cutter of two inclinations, so that if needed, and cutting simultaneously on each surface 16 and 18 of cathode plate.Certainly, parts 62 and 64 can be configured to various suitable modes, comprise the various finger-like or the claw-like parts that are used for stripped metal sheets from the cathode plate.
Can use various suitable actuators to activate aforementioned components.
Unloading assembly 32 does not need to comprise gate member 152, but can comprise passive guide member, so that the metal sheet of being stripped from 12 that falls towards the regional guidance between hold-down roll 174 and 176.But, it may occur to persons skilled in the art that and use various gate members 32.
In fact, unloading assembly 32 can be an independently assembly, and it can be installed to various types of peeling off on assembly or the stripping off device, is used for after stripped metal sheets towards take-off equipment moving metal plate 12 controllably.
Can expect using various suitable materials to make hold-down roll 174 of the present invention and 176, to be used for its selected function.Cylinder 174 and 176 in this example all is electronic, can expect in content of the present invention, and the cylinder that uses two loading springs and adjoin each other, thus slow down the lowering speed of metal sheet 12 between them.In another example, it is electronic having only a cylinder, and another cylinder is a loading spring.
Among the embodiment shown here, cylinder 176 laterally moves, and those skilled in the art can understand, and two cylinders 174 and 176 can laterally move.Optionally, two cylinders 174 and 176 all can not laterally move.
Cylinder 176 does not need to be installed on the motor as actuator 183, but can loading spring or use sleeve pipe or bias component, the metal sheet 12 that its common edge 128 is transmitted pad 202 inclinations of pulling away can apply effect to it, so that cylinder 176 is pushed away cylinder 174, thereby the metal sheet that vacating space is used to tilt rotates to level attitude from the vertical position.
In addition, show two cylinders 174 and 176 here, but can expect the cylinder side by side of two adjacent lines, the one or more cylinders in one of them nominated bank are electronic and laterally move.And described cylinder is capable can comprise a track ribbon mounted thereto.
Shown cylinder 174 and 176 is the rod assemblies that have flange on it.In other unshowned embodiment, cylinder 174 and 176 can be the drum-shape parts that can controllably fall any kind of metal sheet 12 as mentioned above.
Unloading assembly 32 does not need to comprise transmitter 199, therefore, can be regularly to cylinder 176, so that 28 begin to regain gradually during near output precision at the edge.In an example, carry out timing by 300 pairs of cylinders of controller 176.
Various structure right sensors 199 can be provided and it directly or by controller 300 is connected on the actuating assembly 186, this controller can receive data and correspondingly send signal to actuating assembly 186 from transmitter.
Make cylinder 176 get back to the position of its extension by timing register or by the signal that controller 300 is sent.
In another embodiment, various transmitters can be arranged in the different zone of device 10, so that detect whole positions of metal sheet 12, and these data are delivered in the controller 300, thus the correspondingly actuating of the various assemblies of control device 10.
Unloading assembly 32 of the present invention does not need to comprise guide member 157.Therefore, cylinder 174 and 176 can directly be provided to the metal sheet 12 of being stripped from the output precision and not use guide member 157.But can expect various types of guide members within the scope of the invention.Because the length of these guide members, size and structure change according to its use, so it depends on size and the material and the common structure of the stripped metal sheets 12 that is directed to output precision 34.
Output precision 36 in this example is conveyer assemblies.Should be noted that and to use various types of conveyer assemblies within the scope of the invention, comprise the conveyer assembly of pad 194 and on pad 194, slide too quickly so that hinder the metal sheet of carrying thereon the position with band burr.Therefore, when pad 194 when moving, the downstream edge of the metal sheet of being stripped from and this burr adjacency and can its downslide controlled.
As mentioned above, controller 300 can have various transmitters, so that when cathode plate 14 and metal sheet 12 move, receive data, thus the running of the various piece of synchronising apparatus as described herein 10.
In one embodiment of the invention, provide single station device, wherein to the sending into of its negative electrode of depositing metal sheet of powering on, from the cathode plate 14 stripped metal sheets 12 and all be to finish at same station to its control output towards output precision 34.And, from cathode plate to the knocking of metal sheet 12, superimposedly can finish at same station with separating also, therefore a kind of single station device that is used for peeling off from permanent cathode the electrodeposit metals plate is provided.
In one embodiment of the invention, providing a kind of is used for from the method for permanent cathode 14 stripped metal sheets.This method comprises its cathode plate 14 that deposits metal sheet that powers on is placed between the stripping off device that described stripping off device will peel metal sheet from the upstream edge of cathode plate.In this process,, and it is knocked so that its top from cathode plate is unclamped by the anchor clamps fixed metal plate.From the downstream part that cathode plate cuts away metal sheet, and control its whereabouts by valve system, with its guide pulley device, this drum apparatus controllably provides it to take-off equipment.
Be appreciated that application of the present invention is not limited to shown in the accompanying drawing and structure described above and details partly.The present invention can be other embodiment and otherwise realize.Also be appreciated that employed word and being used to describe rather than limit property of term here.Therefore, although above invention has been described by preferred embodiment, under the scope that does not exceed the spirit of the present invention, scope and the characteristic that limit by appended claims, can revise the present invention.
Claims
(according to the modification of the 19th of treaty)
1. device (10) that is used for from cathode plate (14) scripping electric deposition metal plate (12), described kind of plate has relative face (16,18) and upstream and downstream end (20,22), (12a 12b) is provided at least one and plants plate face (16,18) and go up and have a upstream (24 at least one metal sheet, 26) and downstream edge (28), described device (10) comprising:
Peel off assembly, be used for peeling off described metal sheet from described cathode plate;
The unloading assembly, it is positioned at described downstream of peeling off assembly, and described unloading assembly comprises relative guide roller, and this guide roller is suitable for and leaves the described described metal sheet of peeling off assembly and engage; And
The metal sheet output precision, the downstream that it is positioned at described unloading assembly is used to receive described metal sheet;
Wherein, when described metal sheet by when described cathode plate peels, described guide roller controllably is transported to described output precision with described metal sheet, and described metal sheet is rotated in its height.
2. device as claimed in claim 1, the wherein said assembly of peeling off comprises peeling member, it has the finger piece of the upstream edge that engages described metal sheet.
3. device as claimed in claim 1, the wherein said assembly of peeling off comprises a pair of relative and peeling member that separate, described peeling member limits the cathode plate reception zone betwixt, each described peeling member comprises finger piece, and described finger piece engages with the upstream edge of described metal sheet when described cathode plate is arranged in described reception zone.
4. device as claimed in claim 3, wherein said finger piece comprise sword sheet separately, are used for engaging with the upstream edge of described metal sheet.
5. device as claimed in claim 3, the wherein said assembly of peeling off comprises the assembly that activates peeling member.
6. device as claimed in claim 3, wherein said peeling member can move back and forth.
7. device as claimed in claim 3, the upstream and downstream end of wherein said cathode plate is respectively top and bottom end, and the upstream and downstream edge of described metal sheet is respectively top and bottom margin.
8. device as claimed in claim 1, the wherein said assembly of peeling off comprises separation assembly, is used for unstripped part with described metal sheet from described cathodic disbonding.
9. device as claimed in claim 8, wherein said separation assembly comprises removable tool parts, is used between described metal sheet and cathode plate from the downstream edge cutting towards described metal sheet of the released part of described metal sheet.
10. device as claimed in claim 1, the wherein said assembly of peeling off comprises and knocks assembly, is used for the upstream edge of described metal sheet is unclamped from described cathode plate.
11. device as claimed in claim 10, the wherein said assembly that knocks comprises pneumatic hammer.
12. device as claimed in claim 10, the wherein said assembly that knocks comprises relative and pneumatic hammer that separate.
13. device as claimed in claim 1, the wherein said assembly of peeling off comprises superimposed assembly, is used for the relative part of the described metal sheet of having peeled off is folded into together.
14. device as claimed in claim 13, wherein said superimposed assembly comprise two relative superimposed parts that separate.
15. device as claimed in claim 14, wherein said superimposed parts can move back and forth.
16. comprising, device as claimed in claim 14, wherein said superimposed parts be used for the cylinder that engages with described metal sheet.
17. device as claimed in claim 1, wherein said guide roller is a loading spring.
18. device as claimed in claim 1, wherein said guide roller is electronic.
19. device as claimed in claim 16, wherein said guide roller is connected to speed controller.
20. device as claimed in claim 1, wherein at least one described guide roller is electronic.
21. device as claimed in claim 20, wherein other described guide roller is an idle.
22. device as claimed in claim 20, wherein other described guide roller is a loading spring.
23. device as claimed in claim 20, wherein said electronic guide roller is connected to controller.
24. device as claimed in claim 1, wherein at least one described cylinder is laterally to move.
25. device as claimed in claim 24, wherein said at least one cylinder that laterally moves are installed to and are used to make its laterally mobile actuator.
26. device as claimed in claim 25, wherein said cylinder is installed to pedestal, and described actuator is installed to plate member, and described plate member is installed to described base component slidably, and described plate member is installed to the described cylinder that laterally moves.
27. device as claimed in claim 26, the wherein said cylinder that laterally moves is installed to support in its vertical end, and described support is installed to described plate.
28. device as claimed in claim 24, wherein said actuator comprises bias component.
29. device as claimed in claim 28, wherein said bias component is a spring.
30. device as claimed in claim 29, wherein said bias component is a lining.
31. device as claimed in claim 25, wherein said unloading assembly comprises transmitter, and this transmitter is positioned to detect described metal sheet near described output precision.
32. device as claimed in claim 31, wherein said transmitter send signal to described actuator so that laterally move the described cylinder that laterally moves.
33. device as claimed in claim 31, wherein said transmitter are connected to controller it is sent data.
34. device as claimed in claim 33, wherein said controller send signal to described actuator so that laterally move the described cylinder that laterally moves.
35. device as claimed in claim 1, wherein two metal sheets are provided at respectively on each described kind of plate face, the downstream edge of two described metal sheets limits common edge, and described guide roller is suitable for leaving at described metal sheet and describedly engages with described common edge when peeling off assembly.
36. device as claimed in claim 35, wherein when described metal sheet was flowed to described output precision, described guide roller was suitable for two described metal sheets are flattened together.
37. device as claimed in claim 35, wherein said two metal sheets upstream edge separately is a top, and described common edge is bottom margin, and described guide roller is positioned at described below of peeling off assembly.
38. device as claimed in claim 1, wherein said unloading assembly is positioned at described below of peeling off assembly.
39. device as claimed in claim 1, wherein said unloading assembly also comprises the guide member that is positioned at described guide roller downstream, and described metal sheet is transported to described output precision by described guide member.
40. device as claimed in claim 39, wherein said guide member is positioned at the below of described guide roller, described output precision is positioned at the below of described guide member, and described guide roller controllably is lowered to described metal sheet on the described output precision by described guide member.
41. device as claimed in claim 40, wherein said metal sheet slides on the described output precision along described guide member.
42. device as claimed in claim 1, wherein said output precision is positioned at the below of described unloading assembly, and described guide roller is suitable for controllably described metal plate component being lowered on the described output precision.
43. device as claimed in claim 1, wherein said output precision are the conveyer assemblies.
44. device as claimed in claim 43, wherein said conveyer assembly comprise relative cylinder and transmission pad mounted thereto.
45. device as claimed in claim 1 comprises that also cathode plate sends into assembly, it is positioned at described upstream of peeling off assembly, is used for described cathode plate is moved to the described assembly of peeling off.
46. device as claimed in claim 45, wherein said cathode plate are sent into assembly and comprised the negative electrode bearing assembly, it engages with the upstream termination of described cathode plate.
47. device as claimed in claim 46, the upstream and downstream end of wherein said cathode plate is respectively top and bottom end.
48. sending into assembly, device as claimed in claim 47, wherein said cathode plate be positioned at described top of peeling off assembly.
49. it is the conveyer assembly that device as claimed in claim 45, wherein said cathode plate are sent into assembly, described negative electrode hangs from described negative electrode bearing assembly.
50. unloading assembly (32) that is used for following device (10), described device (10) is used for from cathode plate (14) scripping electric deposition metal plate (12), described device (10) comprises that the metal sheet of the upstream that is suitable for being positioned at described unloading assembly (32) peels off assembly (30) and be suitable for being positioned at the described metal sheet output precision (34) of peeling off the downstream of assembly (30), and described unloading assembly (32) comprising:
Relative guide roller, it is suitable for and leaves the described metal sheet of peeling off assembly and engage, and when described metal sheet by when described cathode plate peels, described guide roller controllably is transported to described metal sheet described output precision, simultaneously described metal sheet is rotated in its height.
51. device as claimed in claim 50, wherein said guide roller is a loading spring.
52. device as claimed in claim 50, wherein said guide roller is electronic.
53. device as claimed in claim 52, wherein said guide roller is connected to controller.
54. device as claimed in claim 50, wherein at least one guide roller is electronic.
55. device as claimed in claim 54, wherein other described guide roller is an idle.
56. device as claimed in claim 54, wherein other described guide roller is a loading spring.
57. device as claimed in claim 54, wherein said electronic guide roller is connected to controller.
58. device as claimed in claim 50, wherein at least one described cylinder is laterally to move.
59. device as claimed in claim 58, wherein said at least one cylinder that laterally moves are installed to and are used to make its laterally mobile actuator.
60. device as claimed in claim 59, wherein said cylinder is installed to pedestal, and described actuator is installed to plate member, and described plate member is installed on the described base component slidably, and described plate member is installed to the described cylinder that laterally moves.
61. device as claimed in claim 60, the wherein said cylinder that laterally moves is installed to support in its vertical end, and described support is installed to described plate.
62. device as claimed in claim 59, wherein said actuator comprises bias component.
63. device as claimed in claim 62, wherein said bias component is a spring.
64. as the described device of claim 63, wherein said bias component is a lining.
65. device as claimed in claim 59, wherein said unloading assembly comprises transmitter, and described transmitter is positioned to detect described metal sheet near described output precision.
66. as the described device of claim 65, wherein said transmitter sends signal to described actuator, so that laterally move the described cylinder that laterally moves.
67. as the described device of claim 65, wherein said transmitter is connected to controller so that it is sent data.
68. as the described device of claim 67, wherein said controller sends signal to described actuator, so that laterally move the described cylinder that laterally moves.
69. single station device (10) that is used for from cathode plate (14) scripping electric deposition metal plate (12), this kind plate has relative face (16,18), upstream (20) and downstream end (22), at least one metal sheet (12a, 12b) be provided at least one described kind of plate face (16,18) go up and have upstream (24,26) and downstream edge (28), described device (10) comprising:
Send into assembly;
Peel off assembly, it is positioned at the described downstream of sending into assembly, is used for peeling off described metal sheet from described cathode plate, and comprises:
Knock assembly, be used to unclamp the upstream edge of described metal sheet; And
Separating component is used for the unstripped part of described metal sheet is separated from described cathode plate;
The unloading assembly, it is positioned at described downstream of peeling off assembly, and described unloading assembly comprises relative guide roller, and described guide roller is suitable for and leaves the described metal sheet of peeling off assembly and engage; And
The metal sheet output precision, the downstream that it is positioned at described unloading assembly is used to receive described metal sheet;
Wherein, sending into, peel off, knock, separate, unloading and exporting described metal sheet in single continuous station realization.
70. as the described device of claim 69, wherein at least one described cylinder is laterally to move.
71. as the described device of claim 70, wherein said at least one cylinder that laterally moves is installed to and is used to make its laterally mobile actuator.
72. as the described single station device of claim 69, wherein said two metal sheets are provided at each respectively and plant on the plate face, the downstream edge of described two metal sheets limits common edge, and described unloading assembly also comprises and is suitable for two metal sheets of having peeled off are folded into together superimposed assembly.
73. a device (10) that is used for from cathode plate (14) scripping electric deposition metal plate (12), described device (10) comprising:
Stripping off device is used for peeling off described metal sheet from described cathode plate;
Unloading mechanism is used for controllably unloading described metal sheet.
Wherein said unloading mechanism rotates described metal sheet when the described metal sheet of unloading in its height
74. one kind is used for from the method for cathode plate (14) scripping electric deposition metal plate (12), described kind of plate (14) has relative face (16,18), upstream (20) and downstream end (22), at least one metal sheet (12a, 12b) be provided at least one and plant plate face (16,18) go up and have upstream (24,26) and downstream edge (28), described method comprises:
Peel off described metal sheet from described cathode plate; And
Controllably the described metal sheet of having peeled off is offered output precision, described metal sheet is rotated in its height.

Claims (74)

1. one kind is used for from the device of cathode plate scripping electric deposition metal plate, described kind of plate has relative face and upstream and downstream end, at least one metal sheet is provided at least one kind plate face and has the upstream and downstream edge, and described device comprises:
Peel off assembly, be used for peeling off described metal sheet from described cathode plate;
The unloading assembly, it is positioned at described downstream of peeling off assembly, and described unloading assembly comprises relative guide roller, and this guide roller is suitable for and leaves the described described metal sheet of peeling off assembly and engage; And
The metal sheet output precision, the downstream that it is positioned at described unloading assembly is used to receive described metal sheet;
Wherein, when described metal sheet by when described cathode plate peels, described guide roller controllably is transported to described output precision with described metal sheet.
2. device as claimed in claim 1, the wherein said assembly of peeling off comprises peeling member, it has the finger piece of the upstream edge that engages described metal sheet.
3. device as claimed in claim 1, the wherein said assembly of peeling off comprises a pair of relative and peeling member that separate, described peeling member limits the cathode plate reception zone betwixt, each described peeling member comprises finger piece, and described finger piece engages with the upstream edge of described metal sheet when described cathode plate is arranged in described reception zone.
4. device as claimed in claim 3, wherein said finger piece comprise sword sheet separately, are used for engaging with the upstream edge of described metal sheet.
5. device as claimed in claim 3, the wherein said assembly of peeling off comprises the assembly that activates peeling member.
6. device as claimed in claim 3, wherein said peeling member can move back and forth.
7. device as claimed in claim 3, the upstream and downstream end of wherein said cathode plate is respectively top and bottom end, and the upstream and downstream edge of described metal sheet is respectively top and bottom margin.
8. device as claimed in claim 1, the wherein said assembly of peeling off comprises separation assembly, is used for unstripped part with described metal sheet from described cathodic disbonding.
9. device as claimed in claim 8, wherein said separation assembly comprises removable tool parts, is used between described metal sheet and cathode plate from the downstream edge cutting towards described metal sheet of the released part of described metal sheet.
10. device as claimed in claim 1, the wherein said assembly of peeling off comprises and knocks assembly, is used for the upstream edge of described metal sheet is unclamped from described cathode plate.
11. device as claimed in claim 10, the wherein said assembly that knocks comprises pneumatic hammer.
12. device as claimed in claim 10, the wherein said assembly that knocks comprises relative and pneumatic hammer that separate.
13. device as claimed in claim 1, the wherein said assembly of peeling off comprises superimposed assembly, is used for the relative part of the described metal sheet of having peeled off is folded into together.
14. device as claimed in claim 13, wherein said superimposed assembly comprise two relative superimposed parts that separate.
15. device as claimed in claim 14, wherein said superimposed parts can move back and forth.
16. comprising, device as claimed in claim 14, wherein said superimposed parts be used for the cylinder that engages with described metal sheet.
17. device as claimed in claim 1, wherein said guide roller is a loading spring.
18. device as claimed in claim 1, wherein said guide roller is electronic.
19. device as claimed in claim 16, wherein said guide roller is connected to speed controller.
20. device as claimed in claim 1, wherein at least one described guide roller is electronic.
21. device as claimed in claim 20, wherein other described guide roller is an idle.
22. device as claimed in claim 20, wherein other described guide roller is a loading spring.
23. device as claimed in claim 20, wherein said electronic guide roller is connected to controller.
24. device as claimed in claim 1, wherein at least one described cylinder is laterally to move.
25. device as claimed in claim 24, wherein said at least one cylinder that laterally moves are installed to and are used to make its laterally mobile actuator.
26. device as claimed in claim 25, wherein said cylinder is installed to pedestal, and described actuator is installed to plate member, and described plate member is installed to described base component slidably, and described plate member is installed to the described cylinder that laterally moves.
27. device as claimed in claim 26, the wherein said cylinder that laterally moves is installed to support in its vertical end, and described support is installed to described plate.
28. device as claimed in claim 24, wherein said actuator comprises bias component.
29. device as claimed in claim 28, wherein said bias component is a spring.
30. device as claimed in claim 29, wherein said bias component is a lining.
31. device as claimed in claim 25, wherein said unloading assembly comprises transmitter, and this transmitter is positioned to detect described metal sheet near described output precision.
32. device as claimed in claim 31, wherein said transmitter send signal to described actuator so that laterally move the described cylinder that laterally moves.
33. device as claimed in claim 31, wherein said transmitter are connected to controller it is sent data.
34. device as claimed in claim 33, wherein said controller send signal to described actuator so that laterally move the described cylinder that laterally moves.
35. device as claimed in claim 1, wherein two metal sheets are provided at respectively on each described kind of plate face, the downstream edge of two described metal sheets limits common edge, and described guide roller is suitable for leaving at described metal sheet and describedly engages with described common edge when peeling off assembly.
36. device as claimed in claim 35, wherein when described metal sheet was flowed to described output precision, described guide roller was suitable for two described metal sheets are flattened together.
37. device as claimed in claim 35, wherein said two metal sheets upstream edge separately is a top, and described common edge is bottom margin, and described guide roller is positioned at described below of peeling off assembly.
38. device as claimed in claim 1, wherein said unloading assembly is positioned at described below of peeling off assembly.
39. device as claimed in claim 1, wherein said unloading assembly also comprises the guide member that is positioned at described guide roller downstream, and described metal sheet is transported to described output precision by described guide member.
40. device as claimed in claim 39, wherein said guide member is positioned at the below of described guide roller, described output precision is positioned at the below of described guide member, and described guide roller controllably is lowered to described metal sheet on the described output precision by described guide member.
41. device as claimed in claim 40, wherein said metal sheet slides on the described output precision along described guide member.
42. device as claimed in claim 1, wherein said output precision is positioned at the below of described unloading assembly, and described guide roller is suitable for controllably described metal plate component being lowered on the described output precision.
43. device as claimed in claim 1, wherein said output precision are the conveyer assemblies.
44. device as claimed in claim 43, wherein said conveyer assembly comprise relative cylinder and transmission pad mounted thereto.
45. device as claimed in claim 1 comprises that also cathode plate sends into assembly, it is positioned at described upstream of peeling off assembly, is used for described cathode plate is moved to the described assembly of peeling off.
46. device as claimed in claim 45, wherein said cathode plate are sent into assembly and comprised the negative electrode bearing assembly, it engages with the upstream termination of described cathode plate.
47. device as claimed in claim 46, the upstream and downstream end of wherein said cathode plate is respectively top and bottom end.
48. sending into assembly, device as claimed in claim 47, wherein said cathode plate be positioned at described top of peeling off assembly.
49. it is the conveyer assembly that device as claimed in claim 45, wherein said cathode plate are sent into assembly, described negative electrode hangs from described negative electrode bearing assembly.
50. unloading assembly that is used for following device, described device is used for from the cathode plate scripping electric deposition metal plate, described device comprises that the metal sheet of the upstream that is suitable for being positioned at described unloading assembly peels off assembly and be suitable for being positioned at the described metal sheet output precision of peeling off the downstream of assembly, and described unloading assembly comprises:
Relative guide roller, it is suitable for engaging with leaving the described metal sheet of peeling off assembly, and when described metal sheet by when described cathode plate peels, described guide roller controllably is transported to described output precision with described metal sheet.
51. device as claimed in claim 50, wherein said guide roller is a loading spring.
52. device as claimed in claim 50, wherein said guide roller is electronic.
53. device as claimed in claim 52, wherein said guide roller is connected to controller.
54. device as claimed in claim 50, wherein at least one guide roller is electronic.
55. device as claimed in claim 54, wherein other described guide roller is an idle.
56. device as claimed in claim 54, wherein other described guide roller is a loading spring.
57. device as claimed in claim 54, wherein said electronic guide roller is connected to controller.
58. device as claimed in claim 50, wherein at least one described cylinder is laterally to move.
59. device as claimed in claim 58, wherein said at least one cylinder that laterally moves are installed to and are used to make its laterally mobile actuator.
60. device as claimed in claim 59, wherein said cylinder is installed to pedestal, and described actuator is installed to plate member, and described plate member is installed on the described base component slidably, and described plate member is installed to the described cylinder that laterally moves.
61. device as claimed in claim 60, the wherein said cylinder that laterally moves is installed to support in its vertical end, and described support is installed to described plate.
62. device as claimed in claim 59, wherein said actuator comprises bias component.
63. device as claimed in claim 62, wherein said bias component is a spring.
64. as the described device of claim 63, wherein said bias component is a lining.
65. device as claimed in claim 59, wherein said unloading assembly comprises transmitter, and described transmitter is positioned to detect described metal sheet near described output precision.
66. as the described device of claim 65, wherein said transmitter sends signal to described actuator, so that laterally move the described cylinder that laterally moves.
67. as the described device of claim 65, wherein said transmitter is connected to controller so that it is sent data.
68. as the described device of claim 67, wherein said controller sends signal to described actuator, so that laterally move the described cylinder that laterally moves.
69. single station device that is used for from the cathode plate scripping electric deposition metal plate, this kind plate has relative face, upstream and downstream end, at least one metal sheet is provided at least one described kind of plate face and has the upstream and downstream edge, and described device comprises:
Send into assembly;
Peel off assembly, it is positioned at the described downstream of sending into assembly, is used for peeling off described metal sheet from described cathode plate, and comprises:
Knock assembly, be used to unclamp the upstream edge of described metal sheet; And
Separating component is used for the unstripped part of described metal sheet is separated from described cathode plate;
The unloading assembly, it is positioned at described downstream of peeling off assembly, and described unloading assembly comprises relative guide roller, and described guide roller is suitable for and leaves the described metal sheet of peeling off assembly and engage; And
The metal sheet output precision, the downstream that it is positioned at described unloading assembly is used to receive described metal sheet;
Wherein, sending into, peel off, knock, separate, unloading and exporting described metal sheet in single continuous station realization.
70. as the described device of claim 69, wherein at least one described cylinder is laterally to move.
71. as the described device of claim 70, wherein said at least one cylinder that laterally moves is installed to and is used to make its laterally mobile actuator.
72. as the described single station device of claim 69, wherein said two metal sheets are provided at each respectively and plant on the plate face, the downstream edge of described two metal sheets limits common edge, and described unloading assembly also comprises and is suitable for two metal sheets of having peeled off are folded into together superimposed assembly.
73. one kind is used for from the device of cathode plate scripping electric deposition metal plate, described device comprises:
Stripping off device is used for peeling off described metal sheet from described cathode plate;
Unloading mechanism is used for controllably unloading described metal sheet.
74. one kind is used for from the method for cathode plate scripping electric deposition metal plate, described kind of plate has relative face, upstream and downstream end, at least one metal sheet is provided at least one kind plate face and has the upstream and downstream edge, and described method comprises:
Peel off described metal sheet from described cathode plate; And
Controllably the described metal sheet of having peeled off is offered output precision.
CNA2004800371735A 2004-01-21 2004-01-21 Method and apparatus for scripping electric deposition metal plate from permanent cathode Pending CN1894441A (en)

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US7306706B2 (en) 2007-12-11
US20050155867A1 (en) 2005-07-21
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AU2004314225A1 (en) 2005-08-04
JP4625028B2 (en) 2011-02-02

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